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All about lean thinking
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Lean Thinking Module 1.1
Presentation for:
Summer 2004
i
Joel Cutcher-Gershenfeld Senior Research Scientist, MIT Sloan School of Management and
Executive Director, MIT Engineering Systems Learning Center
ESD.60 – Lean/Six Sigma Systems MIT Leaders for Manufacturing Program (LFM)
These materials were developed as part of MIT's ESD.60 course on "Lean/Six Sigma Systems." In some cases, the materials were produced by the lead instructor, Joel Cutcher-Gershenfeld, and in some cases by student teams
working with LFM alumni/ae. Where the materials were developed by student teams, additional nputs from the faculty and from the technical instructor, Chris Musso, are reflected in some of the text or in an appendix
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Overview ¾ Learning Objectives ¾ Awareness of the contrast
between “mass” and “lean”
¾ Appreciation of the historical context for lean thinking
¾ Ability to engage in lean thinking with respect to
Wastes, and others) ¾ Increased ability to teach
others about lean thinking
¾ Session Design (60-90 min.) ¾ Part I: Introduction and Learning
Objectives (1-2 min.) ¾ Part II: Key Concept or Principle
Defined and Explained (5-7 min.) ¾ Part III: Exercises and Activities
Based on Field Data and Scenarios that Illustrates the Concepts or Principles (45-60 min.)
¾ Part IV: Common “Disconnects,” Relevant Measures of Success, and Potential Action Assignment(s) to Apply Lessons Learned (15-20 min.)
¾ Part V: Evaluation and Concluding Comments (2-3 min.)
9/04 --© Joe Cutcher-Gershenfe d – ESD.60 Lean/Six Sigma Systems, LFM, MIT
mindsets
application examples (5S’s, 7
Part I: Introduction Part II: Concepts Part III: Application Part IV: Disconnects Part V: Conclusion
6/ 3l l
Redefining “lean” Definition:
“Becoming ‘lean’ is a process of eliminating waste with the goal of creating value.”
Note:
cost cutting – i
i iJoel l i
i i l ) 9/04 --© Joe Cutcher-Gershenfe d – ESD.60 Lean/Six Sigma Systems, LFM, MIT
This stands in contrast to definitions of lean that only focus on eliminating waste, which is too often interpreted as
ndependent of its impact on value delivery
Source: Lean Enterpr se Value: Ins ghts from MIT’s Lean Aerospace Initiative by Earll Murman, Thomas Allen, Kirkor Bozdogan, Cutcher-Gershenfe d, Hugh McManus, Deborah N ghtingale, Eric Rebentisch, Tom Shields, Fred Stahl, Myles Walton,
Joyce Warmkessel, Stanley Weiss, She la W dnall, (Pa grave, 2002
Part I: Introduction Part II: Concepts Part III: Application Part IV: Disconnects Part V: Conclusion
6/ 4l l
Two mindsets
“Mass Production” Mindset
¾ Producer “push”
¾ Movement of materials
¾ High volume
¾ Inspection
¾ Expert-driven
¾ Decomposition
¾ Periodic adjustment
“Lean Enterprise” Mindset
¾ Customer “pull”
¾ Flow of value
¾ Flexible response
¾ Prevention
¾ Knowledge-driven
¾ Integration
¾ Continuous improvement
9/04 --© Joe Cutcher-Gershenfe d – ESD.60 Lean/Six Sigma Systems, LFM, MIT
Part I: Introduction Part II: Concepts Part III: Application Part IV: Disconnects Part V: Conclusion
6/ 5l l
Where to begin?
¾ An Exercise in Lean Thinking: ¾ Small groups of 4-5 people ¾ Half of the groups: ¾Draw a picture of a home workbench or kitchen used
by someone engaged in “mass” thinking ¾ The other half of the groups: ¾Draw a picture of a home workbench or kitchen used
by someone engaged in “lean” thinking
Note: transparency to illustrate you description
9/04 --© Joe Cutcher-Gershenfe d – ESD.60 Lean/Six Sigma Systems, LFM, MIT
An option for this exercise would be to draw a picture on a
Part I: Introduction Part II: Concepts Part III: Application Part IV: Disconnects Part V: Conclusion
6/ 6l l
Historical context: The changing nature of work
i (i
1800 and earlier 1900 2000 and beyond
Craft Production Socio:
Mastery of Craft Tech:
Specialized Tools
Mass Production
Tech: Assembly Line
Knowledge-Driven Work Socio: Network Alliances
Team-Based Work Systems Tech: Flexible Specialization
9/04 --© Joe Cutcher-Gershenfe d – ESD.60 Lean/Six Sigma Systems, LFM, MIT
Adapted from: “Knowledge-Dr ven Work: Unexpected Lessons from Japanese and United States Work Practices” Oxford Univers ty Press, 1998)
Decentralized Enterprises
Custom Manufacture
Socio: Vertical Hierarchies Scientific Management
Interchangeable Parts
Information Systems
Part I: Introduction Part II: Concepts Part III: Application Part IV: Disconnects Part V: Conclusion
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A Lesson From History ¾ 150 car makers in Indiana since the
assembly of cars in Indiana today (Honda, Subaru, and Toyota)
¾
line, but it was fixed for chassis -
abandoning wood for steel in body
¾ about a plant that had some group
lsome preventative maintenance,
i
maintenance and engineering?
9/04 --© Joe Cutcher-Gershenfe d – ESD.60 Lean/Six Sigma Systems, LFM, MIT
turn of the century -- only 3 doing final
Leading manufacturer -- Auburn Motors -- established an assembly
moving manually from one set of saw horses to another -- and they resisted
frames What will people in the future say
meetings, some new measurab es,
some n-station process control, some reduced in-process inventory, and some coordination among production,
Source: Auburn & Cord by Lee Beck and Josh B. Malks, Motor Books, Intl., 1996
Part I: Introduction Part II: Concepts Part III: Application Part IV: Disconnects Part V: Conclusion
Image removed due to copyright considerations.
6/ 8l l
Historical context: Transformation initiatives
Socio-Technical Work Systems (STS)
1950s 1960s 1970s 1980s 1990s 2000s
Employee Involvement (EI) /
Re-Engineering
Six Sigma
Associated Team Structure
Human group (on line/off line)
Semi-autonomous teams (on-Line)
)
Quality circles )
Work-out events )
teams (off-line)
& Process teams
Statistical Process Control (SPC)
Human Relations Movement
l l9/04 --© Joe Cutcher-Gershenfe d – ESD.60 Lean/Six Sigma Systems, LFM, MIT
Quality of Work Life (QWL)
Total Quality Management (TQM)
Lean Production / Lean Enterprise Systems
EI/QWL groups (off-line
(off-line
(off-line
Black belt led project
Lean production teams / Integrated Product
(on-line)
Work Redesign
Source: Auto Industry System Study by Joe Cutcher-Gershenfe d and Thomas Kochan, 2000
Part I: Introduction Part II: Concepts Part III: Application Part IV: Disconnects Part V: Conclusion
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Historical context: Emergence of lean Selected Elements of Toyota Production System
Implemented over Three Decades: ¾ “Pull” vision ¾ Kanban (card) system ¾ Production leveling ¾ Reduced set-up time (Shingo) ¾ Jidoka (people giving wisdom to machines) ¾ Statistical Process Control (SPC) ¾ Quality Circles ¾ Kaizen (continuous improvement based on
knowledge) ¾ Poka-yoke (error proofing) ¾ Adnon (visual display)
1950s 1960s 1970s
Discussion Question:
¾ l
of the aspects of the
System, including the
with that system. How long do you think it might take a large aerospace company
Lockheed Martin or Pratt and Whitney to build the same
years?
9/04 --© Joe Cutcher-Gershenfe d – ESD.60 Lean/Six Sigma Systems, LFM, MIT
Case Example – Kanban: First kanban experiments Kanban introduced company-wide Kanban distributed across suppliers
It took c ose to 30 years for Toyota to develop all
Toyota Production
lean thinking that goes
such as Boeing or
capability -- 30 years, 20 years, 10 years, 5
Part I: Introduction Part II: Concepts Part III: Application Part IV: Disconnects Part V: Conclusion
6/9/04 -- 10© Joel Cutcher-Gershenfeld – ESD.60 Lean/Six Sigma Systems, LFM, MIT
Auto industry data: A lean story?(data from The Machine That Changed the World)
Year1947 1954 1961 1968 1975 1982 1989
Aut
o Pr
oduc
tion
(mill
ions
) 20
15
10
5JapaneseProduction
USProduction
GM
Ford
Chr
ysle
rToyo
ta
Market Capitalization1998-2001
“Anorexic Lean”“Bulimic Lean”
“Lean”
Source: Ted Piepenbrock 2003, Engineering Systems Division Doctoral Seminar, Massachusetts Institute of Technology
Part I: Introduction Part II: Concepts Part III: Application Part IV: Disconnects Part V: Conclusion
1. Data from Womack, Jones and Roos, The Machine that Changed the World, The Free Press, 1990.
Airline industry data: A lean story?(source: IATA & Southwest Airlines)
TotalAirline Profits
(1970-2002)
$0 b
$20 b
$10 b
$5 b
-$5 b
$15 b
-$20 b
-$10 b
-$15 b
“Higher, Faster, Farther”
Am
eric
an
Del
ta
Market Capitalization 2002
“Better, Faster, Cheaper” Low-Fare Carriers Point-to-Point Networks Narrow Body Planes
Network Carriers Hub & Spoke Networks Wide Body Planes
All
Oth
ers
Sout
hwes
t
1970 1975 1980 1985 1990 1995 2000 2005 2010 2015
11l li ivisi l
1. Data from the IATA.
6/9/04 --© Joe Cutcher-Gershenfe d – ESD.60 Lean/Six Sigma Systems, LFM, MIT Source: Ted Piepenbrock 2003, Eng neering Systems D on Doctora Seminar, Massachusetts Institute of Technology
Part I: Introduction Part II: Concepts Part III: Application Part IV: Disconnects Part V: Conclusion
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Airline industry data: Another look at the picture
i i ii
$0b
$5b
$10b
$15b
Airl
ine
Prof
itabi
lity
Year 1900 1930 1970 2010
$20b
$25b
198019401920 1990 20001910 19601950
9/04 --© Joe Cutcher-Gershenfe d – ESD.60 Lean/Six Sigma Systems, LFM, MIT
Source: Presentation on “Enterprise Des gn for Dynamic Complex ty: Enterpr se Product Strategy” by Ted Piepenbrock at the Lean Aerospace Initiative Product Development Commun ty Meeting, (October, 2003)
-$10b
-$20b
-$5b
-$15b
Deregulation
Part I: Introduction Part II: Concepts Part III: Application Part IV: Disconnects Part V: Conclusion
6/9/04 -- 13© Joel Cutcher-Gershenfeld – ESD.60 Lean/Six Sigma Systems, LFM, MIT
Lean thinking: A mental model
Womak and Jones:Specify valueIdentify the value streamMake value flow continuouslyLet customers pull valuePursue perfection
Source: James P. Womak and Daniel T. Jones, Lean Thking, New York: Simon and Schuster, 1996.
Part I: Introduction Part II: Concepts Part III: Application Part IV: Disconnects Part V: Conclusion
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Exercise: The Seven Wastes and the Five S’s The Seven Wastes ¾ Over Production ¾ Waiting ¾ Transportation ¾ Inventory ¾ Processing ¾ Motion ¾ Defects
The Five S’s ¾ Simplify or Sort (seiri) ¾ Straighten or Set
(seiton) ¾ Scrub or Shine (seiso) ¾ Stabilize or Standardize
(seiketsu) ¾ Sustain or Self-
Discipline (shitsuke)
What changes are needed in technical/physical systems to address
What changes are needed in social systems – including what new ways of thinking?
9/04 --© Joe Cutcher-Gershenfe d – ESD.60 Lean/Six Sigma Systems, LFM, MIT
the Seven Wastes?
Do the same analysis with respect to the Five S’s
Part I: Introduction Part II: Concepts Part III: Application Part IV: Disconnects Part V: Conclusion
6/9/04 -- 15© Joel Cutcher-Gershenfeld – ESD.60 Lean/Six Sigma Systems, LFM, MIT
Mass Production (“push”):Auto Assembly Plant
T
S
+
+
+
M A T E R I A L
RECEIVING WAREHOUSE
SHIPPING WAREHOUSE
STORAGE STORAGE
ASSEMBLY
WELD
STAMPING
Total Time in Plant :
:
:
Weeks
Value Add Time Minutes
Designed to Maximize Long Production Runs Buffers Against Uncertainty
ORDER CASH
REPAIR
qqqqqqqq
Adapted from: Ford Motor Company -- FPS��
6/9/04 -- 16© Joel Cutcher-Gershenfeld – ESD.60 Lean/Six Sigma Systems, LFM, MIT
Lean Manufacturing (“pull”):Auto Assembly Plant
M A T E R I A L
STAMPING
Work groups supported to ensure ISPC, TPM, Material Flow, etc.
Total Time in Plant :
:
:
Hours
Value Add Time Minutes
Designed to Maximize Elimination of WasteCreation of Value
ORDER CASH
qqqqqqqqPULL
M A T E R I A Lqqqqqqqq
PULLPULL
PULL PULL PULL
Continuous improvement opportunity
Production cards trigger delivery of material
STORAGE WELDING ASSEMBLY STAGE AND SHIP
Adapted from: Ford Motor Company -- FPS��
6/9/04 -- 17© Joel Cutcher-Gershenfeld – ESD.60 Lean/Six Sigma Systems, LFM, MIT
Enterprise and Extended EnterpriseEnterprise and Extended EnterpriseOrderOrder DeliveryDeliveryConceptConcept LaunchLaunchRawRaw--materialsmaterials CustomerCustomer
MultiMulti--plant/Programplant/Program
Value Streams
Source: Adapted from presentation by Matthias Holweg on “Latest Developments in Lean Thinking,” CMI
Design and Development Delivery & Sustainment
PlantPlant
Components & Materials Æ Finished Goods
Support Functions and Infrastructure (Physical & Social)Support Functions and Infrastructure (Physical & Social)
Courtesy of Matthias Holweg. Used with permission.
6/ 18l l
Sample Value Stream Map
i9/04 --© Joe Cutcher-Gershenfe d – ESD.60 Lean/Six Sigma Systems, LFM, MIT
Source: Presentation by Matthias Holweg on “Latest Developments n Lean Thinking,” CMI
Diagram from Mike Rother and John Shook (1998). Learning To See: Value Stream Mapping to Add Value and Eliminate Muda. The Lean Enterprise Institute. ISBN: 0-9667843-0-8. Courtesy of Lean Enterprise Institute, Inc. Used with permission.
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The Deming Cycle
Plan
Do
Check
Act
(what to do; for improvement)
(..it, on a trial basis; experiment)
(if it works; the risks; the variation, LEARN!)
(implement more widely; standardise)
“Hold the gains”
i9/04 --© Joe Cutcher-Gershenfe d – ESD.60 Lean/Six Sigma Systems, LFM, MIT
Source: Presentation by Matthias Holweg on “Latest Developments n Lean Thinking,” CMI
Courtesy of Matthias Holweg. Used with permission.
6/ 20l l
Lean “Disconnects” ¾ Small Groups ¾ Discuss disconnects that you have observed in lean
implementation initiatives or
¾ Discuss potential disconnects that might arise in the implementation of the new work cells in the previous exercise
¾ Full Group ¾ Identify patterns in the data and overall implications
9/04 --© Joe Cutcher-Gershenfe d – ESD.60 Lean/Six Sigma Systems, LFM, MIT
Part I: Introduction Part II: Concepts Part III: Application Part IV: Disconnects Part V: Conclusion
6/9/04 -- 21© Joel Cutcher-Gershenfeld – ESD.60 Lean/Six Sigma Systems, LFM, MIT
What is the Relationship of the “Disconnects” with this Model?
Part I: Introduction Part II: Concepts Part III: Application Part IV: Disconnects Part V: Conclusion
T1
INTE
RD
EPEN
DEN
CE
T2
PULL
T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 TIME
FLOW
STABILITY
INFRASTRUCTURE
You are here
++
+
+
+Adapted from: Materials Developed by WorkMatters, LLC in Collaboration with the Ford Motor Company��
6/ 22l l
Conclusion
¾ Return to the Definition: “Becoming ‘lean’ is a process of eliminating waste with the goal of creating value.”
¾ Why Might These Be Considered First Principles: ¾ Fairness and respect ¾ Customer as “True North” ¾ Eliminate waste to add value ¾ Knowledge-driven continuous improvement (PDCA)
9/04 --© Joe Cutcher-Gershenfe d – ESD.60 Lean/Six Sigma Systems, LFM, MIT
Part I: Introduction Part II: Concepts Part III: Application Part IV: Disconnects Part V: Conclusion
6/ 23l l
¾ The Machine that Changed theWorld, The Free Press (1990).
¾ Womack, James P. and Daniel T. Jones : Banish Waste and Create Wealth in Your Corporation, Si
¾ l
Knowledge-Driven Work: New York: Oxford University Press (1998).
¾ , OxfordUniversity Press (1999).
¾ Ohno, Taiichi, : Beyond Large-Scale Production,Productivity Press, (1978; English translation,1988).
¾ Murman, Earll, Allen, Thomas, Kirkor, l
Lean Enterprise, London, Palgrave (2002).
¾ Gittel, Jody Hoffer, , McGraw-Hill (2003).
¾ and other forums (2003).
¾
9/04 --© Joe Cutcher-Gershenfe d – ESD.60 Lean/Six Sigma Systems, LFM, MIT
Selected Sources – Chronological Order Womack, James P., Daniel T. Jones and Daniel Roos,
, Lean Thinkingmon & Schuster (1996).
Cutcher-Gershenfeld, Joel, Michio Nitta, Betty Barrett, Nejib Belhedi, Simon Chow, Takashi Inaba, Iwao Ishino, Wen-Jeng Lin, Michael Moore, Wil iam Mothersell, Jennifer Palthe, Shobha Ramanand, Mark Strolle, and Arthur Wheaton,
Lessons from Japanese and U.S. Work Practices.
Fujimoto, Takahiro, The Evolution of a Manufacturing System at Toyota
Toyota Production System
Bozdogan, Cutcher-Gershenfe d, Joel, McManus, Hugh, Nightingale, Deborah, Rebentisch, Eric, Shields, Tom, Stahl, Fred, Walton, Myles, Warmkessel, Joyce, Weiss, Stanley, Widnall, Sheila; Value: Insights from MIT’s Lean Aerospace Initiative
The Southwest Airlines Way: Using the Power of Relationships to Achieve High PerformanceCharts and Graphs from Presentations by Ted Piepenbrock in ESD Doctoral Seminar
Charts and Graphs from Presentation by Matthias Holweg on “Latest Developments in Lean Thinking,” CMI (2004).
Part I: Introduction Part II: Concepts Part III: Application Part IV: Disconnects Part V: Conclusion
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